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The innovative BRAIx tool, developed in Australia, offers a cutting-edge approach to breast cancer detection. This predictive AI system is designed to analyze mammogram images, not only identifying existing cancer signs in Australian women but also forecasting the potential development of cancer over the next four years.
Traditionally, mammogram images undergo examination by two radiologists, with a third stepping in if there’s a discrepancy in their assessments.
Utilizing a sophisticated algorithm, the BRAIx tool evaluates the same mammogram images to spot any indications or risks of cancer.
Experts emphasize that this AI tool is not a replacement for radiologists. Instead, it serves as an aid to enhance the accuracy and speed of breast cancer screenings.
Dr. Helen Frazer, the clinical director at St Vincent’s Breast Screen, highlighted that the algorithm has been trained with real mammogram images from Australia’s population screening program. It is capable of detecting early cancer signs or risk patterns that may be invisible to the human eye.
“We’ve been able to train the algorithm on millions of mammogram images, many more than a radiologist would ever be able to see in their lifetime,” Frazer said.
“It’s using simple image classification algorithms to detect signs of cancer or the risk of cancer on a mammogram.
“We can create really accurate tools that have been trained on local Australian populations to improve the population screening program for Australian women.”
The BRAIx detection tool is currently being used in a randomised controlled trial at Breast Screen Victoria and is soon to be rolled out at Breast Screen SA.
The technology has expanded to generate risk scores, predicting a patient’s likelihood of developing breast cancer within the next four years.
The risk-prediction tool is in research and development, Frazer said.
“This is an Australian first for an AI, high-consequence decisions in health care,” she said.
“This will provide us with the necessary evidence for trusts in AI tools for high-consequence healthcare decisions.”
Currently, doctors analyse age, family history and breast density to determine the risk of developing breast cancer.
But research shows the BRAIx tool can predict cancer “with much greater accuracy” than ever before.
“One in 10 women that had a BRAIx risk score in the top two per cent of the population cohort that we tested went on to develop breast cancer in the next four years,” Frazer said.
“And they had been given an all-clear at [mammogram] screening.”
“That really is a breakthrough finding… the future for AI-leveraged risk detection is incredibly exciting.”
The tool could mean the most significant “quantum change” in breast cancer deaths in Australia since the national breast cancer screening program was introduced for women over 50 more than 30 years ago.
Despite the introduction of the screening program, 90,000 Australian women are expected to die from breast cancer in the next 25 years.
Frazer hopes the Australian-built tool can put a stop to the sobering statistic.
“What we’ve learned from the screening program is that if we detect cancer early, whilst it’s still in the breast and hasn’t spread to lymph nodes or distant organs, we have an almost perfect survival [rate] with modern-day treatments,” she said.
“If we can make it even more accurate, detect cancer even earlier, and actively invite women at age 40, and maybe in the future at an even younger age, we have the potential to detect every woman’s cancer early and save every woman’s life.”
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